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1.为了多次计算,把原来的内点法循环单独放到一个文件中。 

2.没有量测量的时候,还是要约束一下的。

Signed-off-by: dugg@lab-desk <dugg@lab-desk>
This commit is contained in:
dugg@lab-desk 2014-07-21 21:49:50 +08:00
parent 0e24eed4bf
commit 382763f559
3 changed files with 252 additions and 165 deletions
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223
OPF.m
View File

@ -1,174 +1,71 @@
tic
clc
clear
%%
% 1 20130123
%%
thesis=ForThesis(1,62);
close
[kmax,Precision,UAngel,Volt,Busnum,PVi,PVu,Balance,Y,Angle,P0,Q0,r,c,GB,Linei,Linej,Transfori,Transforj,GenU,GenL,GenC,PG,QG,PD,QD,CenterA,PGi,PVQU,PVQL,Liner,Linex,Lineb,Transforr,Transforx,Branchi,Branchg,Branchb,Transfork0]= ...
pf('E:\ËãÀý\17\17.csv');
% pf('E:\\926_21671693_2012-09-06\newFIle16.txt');
%pf('D:\Project\\\\\9223-1_0.5_120%.txt');
%pf('D:\Project\\\919.txt');
%pf('c:/file31.txt');
%%
Loadi=QD~=0 | PD~=0;
PF=sqrt(PD(Loadi).^2./(QD(Loadi).^2+PD(Loadi).^2));
%%
Volt;
UAngel*180/3.1415926;
%% PG
AngleIJ=sparse(r,c,UAngel(r)-UAngel(c)-Angle',Busnum,Busnum);
PGBal=PD+diag(Volt)*Y.*cos(AngleIJ)*Volt';
QGBal=QD+diag(Volt)*Y.*sin(AngleIJ)*Volt';
%% -
PG0=PG;
QG0=QG;
PD0=PD;
QD0=QD;
Volt0=Volt;
UAngel0=UAngel;
rVolt=Volt0;
%%
PG0(Balance)=PGBal(Balance);
PG(Balance)=PGBal(Balance);
QG0(Balance)=QGBal(Balance);
QG0(PVi)=QGBal(PVi);
QG(PVi)=QGBal(PVi);
%%
RealPG=PG0;
RealQG=QG0;
RealPD=PD0;
RealQD=QD0;
%%
[Volt,UAngel,Init_Z,Init_W,Init_L,Init_U,Init_Y,PG,QG,RestraintCount,wPG,wQG,wPD,wQD,PD,PD0,QD,randPDind,Loadi]=OPF_Init(Busnum,Balance,PG,QG,Volt,GenU,GenL,PVi,PGi,PVQU,PVQL,RealPD,RealQD,QD,PD);
Gap=(Init_L*Init_Z'-Init_U*Init_W');
KK=0;
plotGap=zeros(1,60);
ContrlCount=size(Loadi,1)*2+Busnum*2+Busnum+length(Loadi)*2;
kmax=100;
Precision=Precision/1;
%%
sigma=0.01;
RealPD=PD;
RealQD=QD;
rVolt=Volt;
Loadi=find(PD~=0);
PD0=sparse(Busnum,1);
QD0=sparse(Busnum,1);
PD0(Loadi)=RealPD(Loadi).*(1+normrnd(0,sigma,length(Loadi),1));
QD0(Loadi)=RealQD(Loadi).*(1+normrnd(0,sigma,length(Loadi),1));
mVolt=rVolt.*(1+normrnd(0,sigma,length(rVolt),1))';
mPD=PD0;
mQD=QD0;
%
lPD=abs(RealPD*3*sigma);
uPD=abs(RealPD*3*sigma);
lQD=abs(RealQD*3*sigma);
uQD=abs(RealQD*3*sigma);
lVolt=abs(rVolt'*3*sigma);
uVolt=abs(rVolt'*3*sigma);
%
%mVolt(2)=5;
bigM=10;
Vbi=sparse(0.5*ones(Busnum,1));
PDbi=sparse(0.5*ones(length(Loadi),1));
QDbi=sparse(0.5*ones(length(Loadi),1));
eps=10;
%
fprintf('1\n');
while(abs(Gap)>Precision*1)
if KK>kmax
break;
end
plotGap(KK+1)=Gap;
Init_u=Gap/2/RestraintCount*CenterA;
AngleIJMat=0;
%% OPF
%%
deltH=func_deltH(Busnum,Volt,PVi,Y,PGi,UAngel,r,c,Angle,Loadi);
%%
deltG=func_deltG(Busnum,PVi,PGi,Loadi,PD,QD,Vbi,PDbi,QDbi);
%%
L_1Z=diag(Init_Z./Init_L);
U_1W=diag(Init_W./Init_U);
%%
deltdeltF=func_deltdeltF(PVi,wPG,wQG,wPD,wQD,ContrlCount);
%% ddHy
ddh=func_ddh(Volt,Init_Y,Busnum,PVi,PGi,Y,UAngel,r,c,Angle,Loadi,ContrlCount);
%% ddg
ddgzw=func_ddg(Busnum,ContrlCount,Loadi,Init_Z,Init_W);
%% deltF
deltF=func_deltF(PG,QG,PVi,PGi,wPG,wQG,wPD,wQD,PG0,QG0,PD0,PD,QD,QD0,Busnum,Loadi);
%%
Luu=Init_U'.*Init_W'+Init_u*ones(RestraintCount,1);
Lul=Init_L'.*Init_Z'-Init_u*ones(RestraintCount,1);
Mat_G=FormG(Volt,PD,QD,Loadi,bigM,mVolt,rVolt,sigma,Vbi,PDbi,QDbi,mPD,mQD,uPD,lPD,uQD,lQD,uVolt,lVolt);
Mat_H=FormH(Busnum,Volt,PG,PD,QG,QD,Y,UAngel,r,c,Angle,Loadi);
Ly=Mat_H;
Lz=FormLz(Mat_G,Init_L,GenL,Busnum,PVQL,PD,RealPD,RealQD,Loadi,KK,PF,eps);
Lw=FormLw(Mat_G,Init_U,GenU,Busnum,PVQU,PD,PD0,QD0,Loadi,KK,PF,eps);
Lx=FormLx(deltF,deltH,Init_Y,deltG,Init_Z,Init_W);
YY=FormYY(Lul,Lz,Ly,Luu,Lw,Lx);
%%
fprintf(' %d Gap %f\n',KK+1,plotGap(KK+1));
XX=SolveIt(deltF,deltG,Init_L,Init_Z,Init_U,Init_W,deltdeltF,ddh,ddgzw,deltH,Init_Y,Ly,Lz,ContrlCount,Lw,Lul,Luu,RestraintCount,Lx,Balance,PVi,PGi,Busnum,Loadi);
%%
[deltZ,deltL,deltW,deltU,deltX,deltY]=AssignXX(XX,ContrlCount,RestraintCount,Busnum);
[Init_Z,Init_L,Init_W,Init_U,Init_Y,PG,QG,Volt,UAngel,PD,QD,Vbi,PDbi,QDbi]=Modification(Init_Z,Init_L,Init_W,Init_U,Init_Y,deltZ,deltL,deltW,deltU,deltX,deltY,PG,QG,Volt,UAngel,PVi,ContrlCount,Balance,Busnum,PGi,PD,QD,Loadi,Vbi,PDbi,QDbi);
Gap=(Init_L*Init_Z'-Init_U*Init_W');
KK=KK+1;
end
%
Gap=1000;
KK=0;
fprintf('\n');
fprintf('2\n');
while(abs(Gap)>Precision*1)
if KK>kmax
break;
end
plotGap(KK+1)=Gap;
Init_u=Gap/2/RestraintCount*CenterA;
AngleIJMat=0;
%% OPF
%%
deltH=func_deltH(Busnum,Volt,PVi,Y,PGi,UAngel,r,c,Angle,Loadi);
%%
deltG=func_deltG(Busnum,PVi,PGi,Loadi,PD,QD,Vbi,PDbi,QDbi);
%%
L_1Z=diag(Init_Z./Init_L);
U_1W=diag(Init_W./Init_U);
%%
deltdeltF=func_deltdeltF(PVi,wPG,wQG,wPD,wQD,ContrlCount);
%% ddHy
ddh=func_ddh(Volt,Init_Y,Busnum,PVi,PGi,Y,UAngel,r,c,Angle,Loadi,ContrlCount);
%% ddg
ddgzw=func_ddg(Busnum,ContrlCount,Loadi,Init_Z,Init_W);
%% deltF
deltF=func_deltF(PG,QG,PVi,PGi,wPG,wQG,wPD,wQD,PG0,QG0,PD0,PD,QD,QD0,Busnum,Loadi);
%%
Luu=Init_U'.*Init_W'+Init_u*ones(RestraintCount,1);
Lul=Init_L'.*Init_Z'-Init_u*ones(RestraintCount,1);
Mat_G=FormG(Volt,PD,QD,Loadi,bigM,mVolt,rVolt,sigma,Vbi,PDbi,QDbi,mPD,mQD,uPD,lPD,uQD,lQD,uVolt,lVolt);
Mat_H=FormH(Busnum,Volt,PG,PD,QG,QD,Y,UAngel,r,c,Angle,Loadi);
Ly=Mat_H;
if KK>8
eps=eps*0.3;
if abs(eps)<1e-6
eps=1e-5;
end
eps;
end
Lz=FormLz(Mat_G,Init_L,GenL,Busnum,PVQL,PD,RealPD,RealQD,Loadi,KK,PF,eps);
Lw=FormLw(Mat_G,Init_U,GenU,Busnum,PVQU,PD,PD0,QD0,Loadi,KK,PF,eps);
Lx=FormLx(deltF,deltH,Init_Y,deltG,Init_Z,Init_W);
YY=FormYY(Lul,Lz,Ly,Luu,Lw,Lx);
%%
fprintf(' %d Gap %f\n',KK+1,plotGap(KK+1));
XX=SolveIt(deltF,deltG,Init_L,Init_Z,Init_U,Init_W,deltdeltF,ddh,ddgzw,deltH,Init_Y,Ly,Lz,ContrlCount,Lw,Lul,Luu,RestraintCount,Lx,Balance,PVi,PGi,Busnum,Loadi);
%%
[deltZ,deltL,deltW,deltU,deltX,deltY]=AssignXX(XX,ContrlCount,RestraintCount,Busnum);
[Init_Z,Init_L,Init_W,Init_U,Init_Y,PG,QG,Volt,UAngel,PD,QD,Vbi,PDbi,QDbi]=Modification(Init_Z,Init_L,Init_W,Init_U,Init_Y,deltZ,deltL,deltW,deltU,deltX,deltY,PG,QG,Volt,UAngel,PVi,ContrlCount,Balance,Busnum,PGi,PD,QD,Loadi,Vbi,PDbi,QDbi);
Gap=(Init_L*Init_Z'-Init_U*Init_W');
KK=KK+1;
end
toc
eps
%% »­Case AµÄͼ
figV=figure();
[Busnum,Loadi,Volt,PD,QD,rVolt,UAngel,RealPD,RealQD,rUAngel,Vbi,PDbi,QDbi]=subOPF([],PD0,QD0,mVolt,sigma);%È«²¿ÓÐ
subplot(4,1,1);
plot(1:Busnum,Volt-rVolt,'b.:','Marker','diamond');
subplot(4,1,2);
plot(1:Busnum,UAngel-rUAngel,'b:','Marker','diamond');
subplot(4,1,3);
plot(1:Busnum,(PD-RealPD)./(RealPD+0.00001),'b:','Marker','diamond');
subplot(4,1,4);
plot(1:Busnum,(QD-RealQD)./(RealQD+0.00001),'b:','Marker','diamond');
%% Case B
[Busnum,Loadi,Volt,PD,QD,rVolt,UAngel,RealPD,RealQD,rUAngel,Vbi,PDbi,QDbi]=subOPF(cat(2,[1,2,3,4,5,11,12,13,16],[18,19]),PD0,QD0,mVolt,sigma);%
% [Busnum,Loadi,Volt,PD,QD,rVolt,UAngel,RealPD,RealQD,rUAngel,Vbi,PDbi,QDbi]=subOPF(cat(2,[1,2,3,4,6,7],[]),PD0,QD0,mVolt,sigma);%
subplot(4,1,1);
hold on;
plot(1:Busnum,Volt-rVolt,'g.:','Marker','square');
subplot(4,1,2);
hold on;
plot(1:Busnum,UAngel-rUAngel,'g:','Marker','square');
subplot(4,1,3);
hold on;
plot(1:Busnum,(PD-RealPD)./(RealPD+0.00001),'g:','Marker','square');
subplot(4,1,4);
hold on;
plot(1:Busnum,(QD-RealQD)./(RealQD+0.00001),'g:','Marker','square');
%% Case C
[Busnum,Loadi,Volt,PD,QD,rVolt,UAngel,RealPD,RealQD,rUAngel,Vbi,PDbi,QDbi]=subOPF([1:17],PD0,QD0,mVolt,sigma);%
subplot(4,1,1);
hold on;
plot(1:Busnum,Volt-rVolt,'r.:','Marker','o');
subplot(4,1,2);
hold on;
plot(1:Busnum,UAngel-rUAngel,'r:','Marker','o');
subplot(4,1,3);
hold on;
plot(1:Busnum,(PD-RealPD)./(RealPD+0.00001),'r:','Marker','o');
subplot(4,1,4);
hold on;
plot(1:Busnum,(QD-RealQD)./(RealQD+0.00001),'r:','Marker','o');
% »­legend
subplot(4,1,1);
title('Voltage');
legend('Case A','Case B','Case C');
subplot(4,1,2);
title('Voltage Angle');
legend('Case A','Case B','Case C');
subplot(4,1,3);
title('Active load power');
legend('Case A','Case B','Case C');
subplot(4,1,4);
title('Reactive load power');
legend('Case A','Case B','Case C');
obj=sum(Vbi)+sum(PDbi)+sum(QDbi);
fprintf('Ä¿±êº¯ÊýÖµ %.2f\n',full(obj));

4
OPF_Init.m
View File

@ -29,8 +29,8 @@ wQD(1:2:end)=0;
%wD(randPDind)=0;%
%wD(7)=0;
% wD(11)=0;
PD=0.8*PD0;
PD=0.0*PD0;
%powerFacter=0.98;
%QD=PD*sqrt((1-powerFacter^2)/powerFacter^2);
QD=.8*QD0;
QD=.0*QD0;
end

190
subOPF.m Normal file
View File

@ -0,0 +1,190 @@
function [Busnum,Loadi,Volt,PD,QD,rVolt,UAngel,RealPD,RealQD,rUAngel,Vbi,PDbi,QDbi]=subOPF(noMeasurei,PD0,QD0,mVolt,sigma)
tic
%%
% 1 20130123
%%
thesis=ForThesis(1,62);
[kmax,Precision,UAngel,Volt,Busnum,PVi,PVu,Balance,Y,Angle,P0,Q0,r,c,GB,Linei,Linej,Transfori,Transforj,GenU,GenL,GenC,PG,QG,PD,QD,CenterA,PGi,PVQU,PVQL,Liner,Linex,Lineb,Transforr,Transforx,Branchi,Branchg,Branchb,Transfork0]= ...
pf('E:\\17\17.csv');
% pf('E:\\926_21671693_2012-09-06\newFIle16.txt');
%pf('D:\Project\\\\\9223-1_0.5_120%.txt');
%pf('D:\Project\\\919.txt');
%pf('c:/file31.txt');
%%
Loadi=QD~=0 | PD~=0;
PF=sqrt(PD(Loadi).^2./(QD(Loadi).^2+PD(Loadi).^2));
%%
% Volt;
% UAngel*180/3.1415926;
%% PG
AngleIJ=sparse(r,c,UAngel(r)-UAngel(c)-Angle',Busnum,Busnum);
PGBal=PD+diag(Volt)*Y.*cos(AngleIJ)*Volt';
QGBal=QD+diag(Volt)*Y.*sin(AngleIJ)*Volt';
%%
% PG0=PG;
% QG0=QG;
% PD0=PD;
% QD0=QD;
% Volt0=Volt;
% UAngel0=UAngel;
RealPD=PD;
RealQD=QD;
rUAngel=UAngel;
rVolt=Volt;
%%
PG0(Balance)=PGBal(Balance);
PG(Balance)=PGBal(Balance);
QG0(Balance)=QGBal(Balance);
QG0(PVi)=QGBal(PVi);
QG(PVi)=QGBal(PVi);
%%
[Volt,UAngel,Init_Z,Init_W,Init_L,Init_U,Init_Y,PG,QG,RestraintCount,wPG,wQG,wPD,wQD,PD,PD00,QD,randPDind,Loadi]=OPF_Init(Busnum,Balance,PG,QG,Volt,GenU,GenL,PVi,PGi,PVQU,PVQL,RealPD,RealQD,QD,PD);
Gap=(Init_L*Init_Z'-Init_U*Init_W');
KK=0;
plotGap=zeros(1,60);
ContrlCount=size(Loadi,1)*2+Busnum*2+Busnum+length(Loadi)*2;
kmax=100;
Precision=Precision/1;
%%
% sigma=0.03;
% PD0(Loadi)=RealPD(Loadi).*(1+normrnd(0,sigma,length(Loadi),1));
% QD0(Loadi)=RealQD(Loadi).*(1+normrnd(0,sigma,length(Loadi),1));
% mVolt=rVolt.*(1+normrnd(0,sigma,length(rVolt),1))';
%DG
DGi=find(PD0<0);
% PD0(DGi)=PD0(DGi).*(1+normrnd(0,sigma*0.1,length(DGi),1));
% QD0(DGi)=QD0(DGi).*(1+normrnd(0,sigma*0.1,length(DGi),1));
% mVolt(DGi)=mVolt(DGi).*(1+normrnd(0,sigma*0.1,length(DGi),1))';
%
mPD=PD0;
mQD=QD0;
%
lPD=abs(RealPD*3*sigma);
uPD=abs(RealPD*3*sigma);
lQD=abs(RealQD*3*sigma);
uQD=abs(RealQD*3*sigma);
lVolt=abs(mVolt'*3*sigma);
uVolt=abs(mVolt'*3*sigma);
%DG
lPD(DGi)=abs(RealPD(DGi)*3*sigma*0.1);
uPD(DGi)=abs(RealPD(DGi)*3*sigma*0.1);
lQD(DGi)=abs(RealQD(DGi)*3*sigma*0.1);
uQD(DGi)=abs(RealQD(DGi)*3*sigma*0.1);
lVolt(DGi)=abs(mVolt(DGi)'*3*sigma*0.1);
uVolt(DGi)=abs(mVolt(DGi)'*3*sigma*0.1);
%%
lPD(noMeasurei)=0.1*mPD(noMeasurei);
uPD(noMeasurei)=0.1*mPD(noMeasurei);
lQD(noMeasurei)=0.1*mQD(noMeasurei);
uQD(noMeasurei)=0.1*mPD(noMeasurei);
lVolt(noMeasurei)=0.1*mVolt(noMeasurei);
uVolt(noMeasurei)=0.1*mVolt(noMeasurei);
%
%mVolt(2)=5;
bigM=10;
Vbi=sparse(0.5*ones(Busnum,1));
PDbi=sparse(0.5*ones(length(Loadi),1));
QDbi=sparse(0.5*ones(length(Loadi),1));
eps=10;
%
fprintf('1\n');
while(abs(Gap)>Precision*1)
if KK>kmax
break;
end
plotGap(KK+1)=Gap;
Init_u=Gap/2/RestraintCount*CenterA;
AngleIJMat=0;
%% OPF
%%
deltH=func_deltH(Busnum,Volt,PVi,Y,PGi,UAngel,r,c,Angle,Loadi);
%%
deltG=func_deltG(Busnum,PVi,PGi,Loadi,PD,QD,Vbi,PDbi,QDbi);
%%
L_1Z=diag(Init_Z./Init_L);
U_1W=diag(Init_W./Init_U);
%%
deltdeltF=func_deltdeltF(PVi,wPG,wQG,wPD,wQD,ContrlCount);
%% ddHy
ddh=func_ddh(Volt,Init_Y,Busnum,PVi,PGi,Y,UAngel,r,c,Angle,Loadi,ContrlCount);
%% ddg
ddgzw=func_ddg(Busnum,ContrlCount,Loadi,Init_Z,Init_W);
%% deltF
deltF=func_deltF(PG,QG,PVi,PGi,wPG,wQG,wPD,wQD,PG0,QG0,PD0,PD,QD,QD0,Busnum,Loadi);
%%
Luu=Init_U'.*Init_W'+Init_u*ones(RestraintCount,1);
Lul=Init_L'.*Init_Z'-Init_u*ones(RestraintCount,1);
Mat_G=FormG(Volt,PD,QD,Loadi,bigM,mVolt,rVolt,sigma,Vbi,PDbi,QDbi,mPD,mQD,uPD,lPD,uQD,lQD,uVolt,lVolt);
Mat_H=FormH(Busnum,Volt,PG,PD,QG,QD,Y,UAngel,r,c,Angle,Loadi);
Ly=Mat_H;
Lz=FormLz(Mat_G,Init_L,GenL,Busnum,PVQL,PD,RealPD,RealQD,Loadi,KK,PF,eps);
Lw=FormLw(Mat_G,Init_U,GenU,Busnum,PVQU,PD,PD0,QD0,Loadi,KK,PF,eps);
Lx=FormLx(deltF,deltH,Init_Y,deltG,Init_Z,Init_W);
YY=FormYY(Lul,Lz,Ly,Luu,Lw,Lx);
%%
fprintf(' %d Gap %f\n',KK+1,plotGap(KK+1));
XX=SolveIt(deltF,deltG,Init_L,Init_Z,Init_U,Init_W,deltdeltF,ddh,ddgzw,deltH,Init_Y,Ly,Lz,ContrlCount,Lw,Lul,Luu,RestraintCount,Lx,Balance,PVi,PGi,Busnum,Loadi);
%%
[deltZ,deltL,deltW,deltU,deltX,deltY]=AssignXX(XX,ContrlCount,RestraintCount,Busnum);
[Init_Z,Init_L,Init_W,Init_U,Init_Y,PG,QG,Volt,UAngel,PD,QD,Vbi,PDbi,QDbi]=Modification(Init_Z,Init_L,Init_W,Init_U,Init_Y,deltZ,deltL,deltW,deltU,deltX,deltY,PG,QG,Volt,UAngel,PVi,ContrlCount,Balance,Busnum,PGi,PD,QD,Loadi,Vbi,PDbi,QDbi);
Gap=(Init_L*Init_Z'-Init_U*Init_W');
KK=KK+1;
end
%
Gap=1000;
KK=0;
fprintf('\n');
fprintf('2\n');
while(abs(Gap)>Precision*1)
if KK>kmax
break;
end
plotGap(KK+1)=Gap;
Init_u=Gap/2/RestraintCount*CenterA;
AngleIJMat=0;
%% OPF
%%
deltH=func_deltH(Busnum,Volt,PVi,Y,PGi,UAngel,r,c,Angle,Loadi);
%%
deltG=func_deltG(Busnum,PVi,PGi,Loadi,PD,QD,Vbi,PDbi,QDbi);
%%
L_1Z=diag(Init_Z./Init_L);
U_1W=diag(Init_W./Init_U);
%%
deltdeltF=func_deltdeltF(PVi,wPG,wQG,wPD,wQD,ContrlCount);
%% ddHy
ddh=func_ddh(Volt,Init_Y,Busnum,PVi,PGi,Y,UAngel,r,c,Angle,Loadi,ContrlCount);
%% ddg
ddgzw=func_ddg(Busnum,ContrlCount,Loadi,Init_Z,Init_W);
%% deltF
deltF=func_deltF(PG,QG,PVi,PGi,wPG,wQG,wPD,wQD,PG0,QG0,PD0,PD,QD,QD0,Busnum,Loadi);
%%
Luu=Init_U'.*Init_W'+Init_u*ones(RestraintCount,1);
Lul=Init_L'.*Init_Z'-Init_u*ones(RestraintCount,1);
Mat_G=FormG(Volt,PD,QD,Loadi,bigM,mVolt,rVolt,sigma,Vbi,PDbi,QDbi,mPD,mQD,uPD,lPD,uQD,lQD,uVolt,lVolt);
Mat_H=FormH(Busnum,Volt,PG,PD,QG,QD,Y,UAngel,r,c,Angle,Loadi);
Ly=Mat_H;
if KK>8
eps=eps*0.3;
if abs(eps)<1e-6
eps=1e-5;
end
eps;
end
Lz=FormLz(Mat_G,Init_L,GenL,Busnum,PVQL,PD,RealPD,RealQD,Loadi,KK,PF,eps);
Lw=FormLw(Mat_G,Init_U,GenU,Busnum,PVQU,PD,PD0,QD0,Loadi,KK,PF,eps);
Lx=FormLx(deltF,deltH,Init_Y,deltG,Init_Z,Init_W);
YY=FormYY(Lul,Lz,Ly,Luu,Lw,Lx);
%%
fprintf(' %d Gap %f\n',KK+1,plotGap(KK+1));
XX=SolveIt(deltF,deltG,Init_L,Init_Z,Init_U,Init_W,deltdeltF,ddh,ddgzw,deltH,Init_Y,Ly,Lz,ContrlCount,Lw,Lul,Luu,RestraintCount,Lx,Balance,PVi,PGi,Busnum,Loadi);
%%
[deltZ,deltL,deltW,deltU,deltX,deltY]=AssignXX(XX,ContrlCount,RestraintCount,Busnum);
[Init_Z,Init_L,Init_W,Init_U,Init_Y,PG,QG,Volt,UAngel,PD,QD,Vbi,PDbi,QDbi]=Modification(Init_Z,Init_L,Init_W,Init_U,Init_Y,deltZ,deltL,deltW,deltU,deltX,deltY,PG,QG,Volt,UAngel,PVi,ContrlCount,Balance,Busnum,PGi,PD,QD,Loadi,Vbi,PDbi,QDbi);
Gap=(Init_L*Init_Z'-Init_U*Init_W');
KK=KK+1;
end
toc
end